Efficient Constrained Encoders Correcting a Single Nucleotide Edit in DNA Storage

机译：有效约束编码器，可纠正DNA存储中的单个核苷酸编辑

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A nucleotide substitution is said to occur when a base in {A, T} is substituted for a base in {C, G}, or vice versa. Recent experiment (Heckel et al. 2019) showed that a nucleotide substitution occurs with a significantly higher probability than other substitution errors. A nucleotide edit refers to a single insertion, deletion or nucleotide substitution. In this paper, we investigate codes that corrects a single nucleotide edit and provide linear-time algorithms that encode binary messages into these codes of length n.Specifically, we provide an order-optimal encoder which corrects a single nucleotide edit with logn + loglogn + O(1) redundant bits. We also demonstrate that the codewords obey certain runlength constraints and that the code can be modified to accommodate certain GC-content constraints.

机译：据说当{A，T}中的碱基替换为{C，G}中的碱基时发生核苷酸取代，反之亦然。最近的实验（Heckel et al.2019）表明，与其他取代错误相比，发生核苷酸取代的可能性明显更高。核苷酸编辑是指单个插入，缺失或核苷酸取代。在本文中，我们研究了纠正单核苷酸编辑的代码，并提供了将二进制消息编码为长度为n的这些代码的线性时间算法。具体而言，我们提供了一种用logn + loglogn +纠正单核苷酸编辑的阶次最优编码器。 O（1）个冗余位。我们还证明了代码字服从某些游程长度约束，并且可以修改代码以适应某些GC内容约束。

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《IEEE International Conference on Acoustics, Speech and Signal Processing》|2020年|8827-8830|共4页
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Kui Cai; Xuan He; Han Mao Kiah; Tuan Thanh Nguyen;
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1. Correcting a Single Indel/Edit for DNA-Based Data Storage: Linear-Time Encoders and Order-Optimality [J] . Cai Kui, Chee Yeow Meng, Gabrys Ryan, IEEE Transactions on Information Theory . 2021,第6期

机译：纠正基于DNA的数据存储的单个indel /编辑：线性时编码器和订单 - 最优性
2. Ff Gene 5 Single-Stranded DNA-Binding Protein Assembles on Nucleotides Constrained by a DNA Hairpin. [J] . Wen JD, Gray DM Biochemistry . 2004,第9期

机译：Ff基因5单链DNA结合蛋白组装在受DNA发夹约束的核苷酸上。
3. Straightforward Delivery of Linearized Double-Stranded DNA Encoding sgRNA and Donor DNA for the Generation of Single Nucleotide Variants Based on the CRISPR/Cas9 System [J] . Jun Soyeong, Lim Hyeonseob, Jang Hoon, ACS Synthetic Biology . 2018,第7期

机译：直接递送编码SGRNA和供体DNA的线性化双链DNA，用于产生基于CRISPR / CAS9系统的单核苷酸变体
4. Efficient Constrained Encoders Correcting a Single Nucleotide Edit in DNA Storage [C] . Kui Cai, Xuan He, Han Mao Kiah, IEEE International Conference on Acoustics, Speech and Signal Processing . 2020

机译：有效的约束编码器校正DNA储存中的单个核苷酸编辑
5. DNA nucleotide excision repair gene single nucleotide polymorphisms and hereditary nonpolyposis colorectal cancer. [D] . Zhang, Nianxiang. 2007

机译：DNA核苷酸切除修复基因单核苷酸多态性与遗传性非息肉性大肠癌。
6. Efficient targeted DNA editing and replacement in Chlamydomonas reinhardtii using Cpf1 ribonucleoproteins and single-stranded DNA [O] . Aron Ferenczi, Douglas Euan Pyott, Andromachi Xipnitou, 2017

机译：使用Cpf1核糖核蛋白和单链DNA在莱茵衣藻中进行有效的靶向DNA编辑和置换
7. A biologically constrained encoding solution for long-term storage of images onto synthetic DNA [O] . Melpomeni Dimopoulou, Marc Antonini, Pascal Barbry, 2019

机译：一种生物学限制的编码解决方案，用于将图像的长期储存到合成DNA上

Efficient Constrained Encoders Correcting a Single Nucleotide Edit in DNA Storage

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